DE19729644B4 - Rotating shank tool and method of making and using an insert - Google Patents

Abstract

rotating Shank tool with a shank (12) and a cutting head (13), the at least one cutting board seat (22) for receiving a cutting plate (17), the form-fitting with the cutting head (13) is connectable, characterized in that the cutting board seat (22) has a contact surface (24) and a base surface (23) which is at an angle β of less than 90 ° to each other are arranged, that the cutting plate (17) in the cutting board seat (22) is positioned in the correct direction in the radial direction and that the cutting plate (17) in the cutting board seat (22) self-centering can be arranged.

Description

The The invention relates to a rotary shaft tool according to the preamble of claim 1, a method according to the preamble of the claim 6 and the use of a cutting plate according to the preamble of the claim 10th

Rotary shank tools have already become known, which have a shank and a cutting head, wherein on the cutting head a cutting blade seat is provided for receiving an insert which can be positively connected to the cutting head, for example by soldering or gluing ( DE 26 24 250 A1 ). In the manufacture of such tools equipped with cutting plates, it is necessary that a simple and fast assembly of the cutting head with cutting plates is made possible in order to keep the production costs low.

It For example, it is known that a slot is milled in the back of the teeth, so that the cutting plate between the back of the teeth and one formed thereby Footbridge is used. The inserts are for positive connection fixed to the shaft. After soldering or gluing the inserts on the cutting head, the bridge is ground off by manual work, about the cutting plate over the entire cutting length release. About that In addition, the inserts are ground with respect to the front side to measure.

These embodiment has the disadvantage that the grinding wheels to the inserts brought be to the cutting board over the entire cutting length release. Due to the high hardness of silicon carbide can it damages the cutting edge, whereby possibly the entire tool can become unusable.

It is also in the production of rotating shank tools known that the cutting head for receiving cutting inserts a right-angled Notch in the spine has as a cutting board seat, in which the insert inserted becomes. Subsequently are used in the flutes form elements, whereby the inserts can be positioned in the tangential direction. In the radial direction a fixation by wrapping the cutting head with a fastener to form a positive connection in an oven between the cutting head and the cutting plates by, for example Soldering or Gluing. After cooling the tool is the Solved fastener and the mold elements removed from the flutes to the inserts to the desired Grinding gauge to grind.

These embodiment has the disadvantage that a variety of features required is that about it addition to the respective diameters of the cutting tool as also to the size of the flutes must be adjusted. About that In addition, the handling is extremely difficult because Both the inserts and the mold elements are prefixed have to, to attach the fastener can. This is a precise one Cutting board seat not allowable.

Of the The invention is therefore based on the object, a rotating shaft tool according to the To provide preamble of claim 1 specified type, the one easy and quick positioning of the inserts to the cutting head as well as an improved fit of the insert on the cutting head allows.

These The object is achieved by the Characteristics of claim 1 solved.

The inventive design the cutting board seat with a contact surface and a base, the an angle of less than 90 °, points the advantage that when inserting the cutting plate in the cutting board seat an independent one Centering and positionally correct positioning done. Thereby are other aids, such as moldings or mold blocks, the used in the flutes, not required to the inserts to the cutting head by means of a fastening means for soldering or Stick to glue. Due to the V-shaped arrangement of the cutting edge seat with an angle of less than 90 ° can further a self-locking effect be achieved, whereby a unscrewing or pushing out of the Cutting plate from the cutting board seat when attaching a fastener can be counteracted.

Furthermore has this embodiment of the invention the advantage that a positive connection between the Cutting plate and the cutting board seat can be achieved. This Positive locking allows a higher one load capacity when cutting, as the occurrence of Zerspankräfte on the cutting edge a Type self-clamping by the V-shaped Cutting board seat the cutting forces counteracts. Furthermore, the load capacity is increased by that due to the V-shaped Deepening one to span spine pointing contact surface is enlarged, which in turn increases a counterforce to the cutting force can.

In addition, the inventive design of the cutting edge seat relative to a cutting board seat, the between the contact surface and the base a right angle closes, has the advantage that an enlargement of the adhesive or solder surface is given, which also contributes to increase a positive connection.

Of another has the inventive design the cutting edge seat has the advantage that not only carbide, but also cermet can be cut or for example also PCD or CBN coated cutting or the like can be used are. This embodiment of the cutting edge seat allows independent of the cutting material a correct position and positive Recording of the cutting plate.

A Another object of the invention is a process for the preparation a rotating cutting tool to provide a simple and quick positioning of the cutting plates to the cutting head is possible and at the same time without mounting aids an exact positioning of the inserts guaranteed to the cutting head becomes.

These The object is achieved by the Characteristics of claim 6 solved.

The inventive method has the advantage that by the design of the cutting edge seat with a support surface and a footprint, which include an angle of less than 90 ° to each other, a given simple and fast production of a cutting edge seat is. This embodiment of the cutting edge seat allows the further, that the cutting plate without mounting aid or the like in the correct position due to the self-centering effect of the cutting edge seat can be positioned. About that also allows this cutting board seat that attaching the fastener without form elements, which are used in the flutes and the Fix the insert to the insert seat, insert it can.

In the further claims Advantageous embodiments and developments of the invention are given.

In The drawing and the following description is a preferred Embodiment of Invention shown. Show it:

1 a schematic side view in half section of a rotating shaft tool,

2 a schematic cross section of a cutting head of the rotating cutting tool,

3 a schematic view of a partial cross sections of a cutting head with an alternative embodiment of a cutting plate and

4 a schematic view of a partial cross section of a cutting head with a further alternative embodiment of a cutting board seat.

In 1 is a rotating shank tool 11 shown, which is a cylindrical shaft 12 and a cutting head 13 having. The cutting head 13 then becomes integral with the shaft 12 be formed or on the cylindrical shaft 12 be used if another material is to be used for the cutting head.

The cutting head 13 has flutes 15 on, over a Spannutenauslaufbereich 16 in the shaft 12 pass.

To the flutes 15 are adjacent in the cutting head 13 inserted inserts 17 intended. This cutting plates 17 can consist of different cutting materials, but at least meet the requirement that these inserts 17 with the cutting head 13 be soldered or glued. As a cutting material, for example, cermet, PCD coated or CBN coated cutting or the like may be provided.

In 2 is a schematic cross section of the cutting head 13 shown. The cutting head 13 advantageously has an uneven tooth pitch. In addition, the width of each tooth or Spanrückens 21 designed differently. The spine 21 indicates the inclusion of the cutting plate 17 a cutting board seat 22 on. This is done by pointing to the longitudinal axis base 23 and one at the spine 21 adjacent investment area 24 educated. The base area 23 and the contact surface 24 are V-shaped to each other and include an angle β of less than 90 °. The cutting plate 17 advantageously has for receiving in the cutting edge seat 22 to the base area 23 and contact surface 24 corresponding guide surfaces 26 . 27 on.

The base area 23 of the cutting board seat 22 is preferably at an angle Φ for spanning 21 arranged so that one for fixing the inserts 17 on the cutting head 13 attached fastener 31 the cutting plates 17 to the spine 21 suppressed. The angle Φ is less than 90 ° and lies between an extension of the base 23 and a division axis 32 passing through a cutting edge 33 one at the base 23 arranged cutting plate 17 runs. An optimal design of the cutting edge seat 22 is thus under the first condition, according to which the angle β is designed smaller than 90 ° and the angle Φ is also preferably formed smaller than 90 °.

In 3 an advantageous embodiment of the invention is shown. To compensate for tolerances and to further increase the correct position positioning is provided that the cutting plate 17 one in a reason 36 between the base area 23 and contact surface 24 pointing chamfer 37 to create a certain amount of space that allows self-centering. In addition, this clearance has the advantage that thereby a larger amount of solder or adhesive may be provided, whereby the adhesive bond between the cutting plate 17 and cutting board seat 22 can be increased.

In 4 is an alternative embodiment to 3 shown. The through the chamfer 37 achieved clearance according to the embodiment form in 3 is in the embodiment according to the 4 through a depression in the ground 36 of the cutting board seat 22 educated. As a result, a tolerance compensation can be created as well, because in the reason 36 facing edge of the insert 17 free in the depression 39 can intervene.

The rotating shank tool 11 is prepared by the method according to the invention as follows. After the production of the shaft 12 and the cutting head 13 with at least one flute 15 and a spine 21 a milling is done on a chip flute 15 pointing surface 41 of spine back 21 , causing the cutting board seat 22 will be produced. As an alternative to milling, the cutting edge seat can also be used 22 be introduced by grinding. The base area 23 and contact surface 24 of the cutting board seat 22 are arranged at an angle smaller than 90 ° to each other.

Subsequently, the cutting plate 17 in the self-clamping cutting edge seat 22 used, wherein advantageously can be provided that the angle of the guide surfaces 26 . 27 in relation to the included angle β of the base 23 and plant 24 is slightly larger, so that a clamping fit can be achieved, which is a prefixing of the cutting plate 17 to the cutting board seat 22 allows. Depending on the adhesive bond between the insert 17 and the cutting board seat 22 For example, the solder or the adhesive or the like may be used before or after insertion of the insert 17 in the cutting board seat 22 be introduced.

After the pre-fixing of the inserts 17 to the cutting board seat 22 of the cutting head 13 is done, becomes a fastener 31 , which is advantageously formed as a heat-resistant wire to the cutting head 13 wrapped so that the inserts 17 due to the angle Φ in the direction of the spine 21 pressed, ie that the cutting plate 17 to the bottom 36 between the cutting edge seat 22 is pressed. By prefixing the inserts 17 Can without additional mounting aids the fastener 31 be attached.

The shank tool 11 is removed after soldering or gluing from an oven and the fastener 31 will be replaced. Subsequently, the cutting plates 17 ground to measure.

Alternatively to the heat resistant wire formed fastener 31 can also be provided a fastening sleeve, which is a positioning or fixing of the cutting plates 17 to the cutting board seat 22 allows.

The rotating shank tools 11 can be designed both as drilling tools and as a reaming tool.

Claims (13)

Rotating shank tool with a shank ( 12 ) and a cutting head ( 13 ) having at least one cutting edge seat ( 22 ) for receiving a cutting plate ( 17 ), which positively with the cutting head ( 13 ) is connectable, characterized in that the cutting edge seat ( 22 ) a contact surface ( 24 ) and a base area ( 23 ), which are arranged at an angle β of less than 90 ° to each other that the cutting plate ( 17 ) in the cutting edge seat ( 22 ) is positioned correctly in the radial direction and that the cutting plate ( 17 ) in the cutting edge seat ( 22 ) can be arranged self-centering. Shank tool according to claim 1, characterized in that the base area ( 23 ) of the cutting edge seat ( 22 ) with respect to a leading to the cutting edge pitch axis ( 32 ) has an angle Φ of none than 90 °. Shank tool according to claim 1 or 2, characterized in that the contact surface ( 24 ) at least as wide as the base area ( 23 ), is trained. Shank tool according to one of the preceding claims, characterized in that in the ground ( 36 ) of the cutting edge seat ( 22 ) a recess ( 39 ) is provided. Shank tool according to one of the preceding claims, characterized in that the cutting plate ( 17 ) in the cutting edge seat ( 22 ) can be arranged in a self-clamping manner. Method for producing a rotating Shank tool ( 11 ), with a shaft ( 12 ) and a cutting head ( 13 ), the at least one cutting plate ( 17 ), characterized in that on a spine ( 21 ) a cutting board seat is produced which has a contact surface ( 24 ) and a base area ( 23 ), which are arranged at an angle β of less than 90 ° to each other that in the cutting edge seat ( 22 ) an insert ( 17 ), one with the cutting edge seat ( 22 ) corresponding guide surface ( 26 . 27 ) that the at the cutting head ( 13 ) ( 17 ) is clamped self-locking that the inserts ( 17 ) with a cutting head ( 13 ) surrounding fasteners ( 31 ) are fixed, that after the positive connection of the cutting plate ( 17 ) with the cutting head ( 13 ) the fastening means ( 31 ) is replaced. Method according to claim 6, characterized in that the cutting board seat ( 22 ) is milled or ground. A method according to claim 6 or 7, characterized in that as fastening means a heat-resistant wire around the cutting head ( 13 ) is wound. Method according to one of claims 6 or 7, characterized in that as fastening means ( 31 ) A sleeve is placed. Use of a cutting insert for a rotary shaft tool according to one of the preceding claims 1 to 5, characterized in that a base body of a cutting edge ( 33 ) opposite right and left guide surface ( 26 . 27 ) in a cutting board seat ( 22 ) of the shank tool ( 11 ) and that one between a the cutting board seat ( 22 ) forming base area ( 23 ) and contact surface ( 24 ) included angle Φ is less than 90 °. Cutting insert according to claim 10, characterized in that on one of the cutting edge ( 33 ) opposite end of the cutting plate ( 17 ) a chamfer ( 37 ) is provided. Cutting insert according to claim 10 or 11, characterized in that a cutting tool made of hard metal or cermet is provided. Cutting insert according to one of claims 10 or 11, characterized in that a PCD or CBN coated Cutting edge is used.